func main() {
l1, l2 := list.New(), list.New()
l1_e1, l1_e2, l1_e3 := l1.PushBack(1), l1.PushBack(2), l1.PushBack(3)
l2_e1, l2_e2, l2_e3 := l2.PushBack(1), l2.PushBack(2), l2.PushBack(3)
fmt.Println("List 1")
PrintList(l1)
fmt.Printf("%d, %d, %d\n", l1_e1.Value, l1_e2.Value, l1_e3.Value)
fmt.Println("List 2")
PrintList(l2)
fmt.Printf("%d, %d, %d\n", l2_e1.Value, l2_e2.Value, l2_e3.Value)
// 从l1中删除l2_e2
fmt.Println("Delete l2_e2 from l1")
l1.Remove(l2_e2)
fmt.Println("List 1")
PrintList(l1)
fmt.Println("List 2")
PrintList(l2)
// 在l2的l2_e2前插入一个值8,这个不会成功
fmt.Println("Insert value 8 before l2_e2")
l2.InsertBefore(8, l2_e2)
fmt.Println("List 1")
PrintList(l1)
fmt.Println("List 2")
PrintList(l2)
}
func NewTcpServer(addr string) *TcpServer {
if len(addr) <= 0 {
return &TcpServer{haddr: "0.0.0.0:9891", exitChan: make(chan int), clientlist: list.New()}
} else {
return &TcpServer{haddr: addr, exitChan: make(chan int), clientlist: list.New()}
}
}
func main() {
in := bufio.NewReader(os.Stdin)
tags := make(map[string]*list.List)
taglist := list.New()
line, err := in.ReadSlice('\n')
for err == nil {
fields := strings.Fields(string(line))
if len(fields) > 2 && fields[0] == "commit" {
hash, tag := fields[1], fields[2]
if tags[tag] == nil {
tags[tag] = list.New()
taglist.PushBack(tag)
}
tags[tag].PushBack(hash)
}
line, err = in.ReadSlice('\n')
}
i := 1
for e := taglist.Front(); e != nil; e = e.Next() {
k := e.Value.(string)
v := tags[k]
fmt.Printf("sh export-oldgit.sh %02d-%s ",
i, k)
for e := v.Front(); e != nil; e = e.Next() {
fmt.Printf("%s ", e.Value.(string))
}
fmt.Println()
i += 1
}
}
func newConn(sock *net.UDPConn, peerIdentity, publicKey, privateKey []byte, domain string) *conn {
if len(peerIdentity) != 32 || len(publicKey) != 32 || len(privateKey) != 32 {
panic("wrong key size")
}
c := &conn{
domain: domain,
packetIn: make(chan packet),
sock: sock,
readRequest: make(chan []byte),
writeRequest: make(chan []byte),
ioResult: make(chan opResult),
toSend: list.New(),
sendFree: list.New(),
received: ringbuf.New(recvBufferSize),
}
// Key setup.
copy(c.peerIdentity[:], peerIdentity)
var pub, priv [32]byte
copy(pub[:], publicKey)
copy(priv[:], privateKey)
box.Precompute(&c.sharedKey, &pub, &priv)
// Send blocks
for i := 0; i < numSendBlocks; i++ {
c.sendFree.PushBack(new(block))
}
go c.pump()
return c
}
func (s *Surface) FindNeighborPixels(p Coord2D) (used, unUsed *list.List) {
unUsed = list.New()
used = list.New()
if p.X > 0 {
s.filterPixel(leftPixel(p), used, unUsed)
}
if p.X < s.Size-1 {
s.filterPixel(rightPixel(p), used, unUsed)
}
if p.Y < s.Size-1 {
s.filterPixel(upPixel(p), used, unUsed)
}
if p.Y > 0 {
s.filterPixel(downPixel(p), used, unUsed)
}
if p.Y < s.Size-1 && p.X > 0 {
s.filterPixel(upLeftPixel(p), used, unUsed)
}
if p.Y < s.Size-1 && p.X < s.Size-1 {
s.filterPixel(upRightPixel(p), used, unUsed)
}
if p.Y > 0 && p.X > 0 {
s.filterPixel(downLeftPixel(p), used, unUsed)
}
if p.Y > 0 && p.X < s.Size-1 {
s.filterPixel(downRightPixel(p), used, unUsed)
}
return used, unUsed
}
// Helper functions
// set up all the structs needed for the program to run
func initialize() {
fmt.Print("init")
output += "init"
// clear the global lists
Ready_List.Init()
Resource_List.Init()
IO = &IO_RCB{list.New()}
PIDs = make(map[string]*PCB)
Init = &PCB{
"init",
list.New(),
CT{nil, list.New()},
Stat{"ready_s", Ready_List},
0}
Curr = Init
PIDs["init"] = Init
Ready_List.PushFront(list.New())
Ready_List.PushFront(list.New())
Ready_List.PushFront(list.New())
listRLInsert(Init)
Resource_List.PushFront(&RCB{"R1", "free", list.New()})
Resource_List.PushFront(&RCB{"R2", "free", list.New()})
Resource_List.PushFront(&RCB{"R3", "free", list.New()})
Resource_List.PushFront(&RCB{"R4", "free", list.New()})
fmt.Println(" ... done\nProcess init is running")
output += " ... done\n\nProcess init is running\n"
}
func TestListToNodeSlice(t *testing.T) {
//t.SkipNow()
nodeA := search.GraphNode(NewWordNode("aardvark", 0))
nodeB := search.GraphNode(NewWordNode("bonobo", 0))
nodeC := search.GraphNode(NewWordNode("chipmunk", 0))
cases := []struct {
in *list.List
want []search.GraphNode
}{
{list.New(), []search.GraphNode{}},
{list.New(), []search.GraphNode{nodeA, nodeB, nodeC}},
//{list.New(), []search.GraphNode{nodeC, nodeB, nodeA},}, order matters
}
cases[1].in.PushBack(nodeA)
cases[1].in.PushBack(nodeB)
cases[1].in.PushBack(nodeC)
// cases[2].in.PushBack(nodeA)
// cases[2].in.PushBack(nodeB)
// cases[2].in.PushBack(nodeC)
for _, c := range cases {
got := listToNodeSlice(c.in)
if !reflect.DeepEqual(got, c.want) {
t.Errorf("listToNodeSlice(%v), want=%v, got=%v", c.in, c.want, got)
}
}
}
func ParseSrtStream(source io.Reader) *list.List {
reader := bufio.NewScanner(source)
blocks := list.New()
for {
block_lines := list.New()
for reader.Scan() {
line := reader.Text()
if line == "" {
break
}
block_lines.PushBack(line)
}
if block_lines.Len() == 0 {
break
}
srt_block := SrtBlockParse(ListToSlice(block_lines))
blocks.PushBack(srt_block)
}
return blocks
}
// NewAroonWithoutStorage creates an Aroon (Aroon) without storage
func NewAroonWithoutStorage(timePeriod int, valueAvailableAction ValueAvailableActionAroon) (indicator *AroonWithoutStorage, err error) {
// an indicator without storage MUST have a value available action
if valueAvailableAction == nil {
return nil, ErrValueAvailableActionIsNil
}
// the minimum timeperiod for an Aroon indicator is 2
if timePeriod < 2 {
return nil, errors.New("timePeriod is less than the minimum (2)")
}
// check the maximum timeperiod
if timePeriod > MaximumLookbackPeriod {
return nil, errors.New("timePeriod is greater than the maximum (100000)")
}
lookback := timePeriod
ind := AroonWithoutStorage{
baseIndicatorWithFloatBoundsAroon: newBaseIndicatorWithFloatBoundsAroon(lookback, valueAvailableAction),
periodCounter: (timePeriod + 1) * -1,
periodHighHistory: list.New(),
periodLowHistory: list.New(),
aroonFactor: 100.0 / float64(timePeriod),
}
return &ind, nil
}
// NewServer creates, initiates, and returns a new server. This function should
// NOT block. Instead, it should spawn one or more goroutines (to handle things
// like accepting incoming client connections, triggering epoch events at
// fixed intervals, synchronizing events using a for-select loop like you saw in
// project 0, etc.) and immediately return. It should return a non-nil error if
// there was an error resolving or listening on the specified port number.
func NewServer(port int, params *Params) (Server, error) {
s := &server{
params: params,
requestc: make(chan *request, 100),
closeSignal: make(chan struct{}),
readBuffer: make(map[int]*buffer),
writeBuffer: make(map[int]*buffer),
unAckedMsgBuffer: make(map[int]*buffer),
latestAckBuffer: make(map[int]*buffer),
deferedRead: list.New(),
deferedClose: list.New(),
hostportConnIdMap: make(map[string]int),
connIdHostportMap: make(map[int]*lspnet.UDPAddr),
activeConn: make(map[int]bool),
expectedSeqNum: make(map[int]int),
seqNum: make(map[int]int),
latestActiveEpoch: make(map[int]int),
currEpoch: 0,
connId: 0,
serverRunning: true,
connLostInClosing: false,
}
s.networkUtility = NewNetworkUtility(s.requestc)
err := s.networkUtility.listen(":" + strconv.Itoa(port))
if err != nil {
return nil, err
}
go s.networkUtility.networkHandler()
go s.eventHandler()
go epochTimer(s.requestc, s.closeSignal, params.EpochMillis)
return s, nil
}
// This function loops forever, handling the chat room pubsub
func chatroom() {
archive := list.New()
subscribers := list.New()
for {
select {
case ch := <-subscribe:
var events []Event
for e := archive.Front(); e != nil; e = e.Next() {
events = append(events, e.Value.(Event))
}
subscriber := make(chan Event, 10)
subscribers.PushBack(subscriber)
ch <- Subscription{events, subscriber}
case event := <-publish:
for ch := subscribers.Front(); ch != nil; ch = ch.Next() {
ch.Value.(chan Event) <- event
}
case unsub := <-unsubscribe:
for ch := subscribers.Front(); ch != nil; ch = ch.Next() {
if ch.Value.(chan Event) == unsub {
subscribers.Remove(ch)
break
}
}
}
}
}
//////////////////////////////////////////////////////////////////////////////////////////////////
// Bot Initalization and Loading/Saving //
////////////////////////////////////////////////////////////////////////////////////////////////
func New() *TweetBot {
return &TweetBot{
commentSet: mapset.NewSet(),
potentialCommentSet: mapset.NewSet(),
commentList: list.New(),
subRedditList: list.New()}
}
func Manager(in chan ManagerRequest) {
locations := map[string]Location{}
waiters := list.New()
for {
req := <-in
switch t := req.(type) {
case *GetLocationsRequest:
getLocReq := req.(*GetLocationsRequest)
newLocations := map[string]Location{}
CopyMap(locations, newLocations)
getLocReq.out <- &newLocations
case *UpdateLocationRequest:
updateReq := req.(*UpdateLocationRequest)
locations[updateReq.id] = *updateReq.location
updateReq.out <- true
newLocations := map[string]Location{}
CopyMap(locations, newLocations)
for e := waiters.Front(); e != nil; e = e.Next() {
waiter := e.Value.(chan *map[string]Location)
waiter <- &newLocations
}
waiters = list.New()
case *WaitForUpdatesRequest:
pollReq := req.(*WaitForUpdatesRequest)
waiters.PushBack(pollReq.out)
default:
panic(fmt.Sprintf("Unknown request type %T", t))
}
}
}
// Returns all active values stored by the key. Also cleans expired
// Values. Values are considered expired if the current time is greater
// than or equal the value's end time.
func (s Store) Get(k Key) (activeValues *list.List, ok bool) {
values, ok := s[k]
if ok {
activeValues = list.New()
expiredValues := list.New()
currentTime := CurrentTime()
for element := values.Front(); element != nil; element = element.Next() {
if value, ok := element.Value.(Value); ok {
if value.IsActiveForTime(currentTime) {
activeValues.PushBack(value.Data)
} else if value.IsExpiredForTime(currentTime) {
// Keep track of list elements to remove later. They cannot be removed
// during iteration.
expiredValues.PushBack(element)
}
}
}
// Go back and remove any elements that are expired. These can never become
// active again so they are removed from storage
for element := expiredValues.Front(); element != nil; element = element.Next() {
expiredElement, ok := element.Value.(*list.Element)
if ok {
expiredValues.Remove(expiredElement)
}
}
}
return
}
func createBall1000(lball *ballon.All_ball, user *list.Element, base *db.Env) {
lstmsg := createMessage1000()
usr := user.Value.(*users.User)
for i := 0; i < 1000; i++ {
ball := new(ballon.Ball)
ball.Id_ball = lball.Id_max
lball.Id_max++
ball.Edited = true
ball.Title = "TEST" + strconv.Itoa(int(ball.Id_ball))
ball.Messages = lstmsg
ball.Coord = GetRandomCoord()
ball.Itinerary = list.New()
ball.Itinerary.PushBack(ball.Coord.Value.(*ballon.Checkpoint))
ball.Followers = list.New()
ball.Checkpoints = list.New()
ball.Date = time.Now()
ball.Possessed = nil
ball.Followers = list.New()
ball.Followers.PushFront(user)
ball.Creator = user
ball.Scoord = ball.Coord
// ball.InitCoord(ball.Coord.Value.(ballon.Checkpoint).Coord.Lon, ball.Coord.Value.(ballon.Checkpoint).Coord.Lat, int16(0), wd, true)
eball := lball.Blist.PushBack(ball)
usr.NbrBallSend++
usr.Followed.PushBack(eball)
lball.InsertBallon(ball, base)
}
}
// AddRoom add a new room
func (c *Chat) AddRoom(name string, conf RoomConfig) (err error) {
// room exists ?
if c.RoomExists(name) {
return errors.New("room " + name + " exists")
}
// Archive
if conf.Archived {
// check if bucket exist
err = boltDB.Update(func(tx *bolt.Tx) error {
_, err := tx.CreateBucketIfNotExists([]byte(name + "_arch"))
return err
})
if err != nil {
return err
}
}
room := &Room{
name: name,
subscribers: list.New(),
archives: list.New(),
archiveLen: conf.ArchivePushMessagesCount,
heartrate: conf.HeartRate,
}
if room.heartrate != 0 {
room.Watch()
}
c.rooms[name] = room
return nil
}
// This function loops forever, handling the chat room pubsub
func chatroom() {
// subscribers := map[string]chan<-Event // map user to channel
archive := list.New()
subscribers := list.New()
for {
select {
case ch := <-subscribe:
var events []Event
for e := archive.Front(); e != nil; e = e.Next() {
events = append(events, e.Value.(Event))
}
subscriber := make(chan Event)
subscribers.PushBack(subscriber)
ch <- Subscription{events, subscriber}
case event := <-publish:
for ch := subscribers.Front(); ch != nil; ch = ch.Next() {
ch.Value.(chan Event) <- event
}
if archive.Len() >= archiveSize {
archive.Remove(archive.Front())
}
archive.PushBack(event)
case unsub := <-unsubscribe:
for ch := subscribers.Front(); ch != nil; ch = ch.Next() {
if ch.Value.(chan Event) == unsub {
subscribers.Remove(ch)
}
}
}
}
}
// Lint reads the provided reader (with an optional associated path)
// and checks the markdown for basic errors. Any errors found are
// sent to the provided out channel
func Lint(reader *bufio.Reader, path string, out chan<- error) {
brackets, parens := list.New(), list.New()
line := 1
column := 1
enDashes := make(map[int]int)
pos := int64(0)
// Parse the file
for {
r, size, err := reader.ReadRune()
pos += int64(size)
if err != nil {
if err != io.EOF {
out <- fmt.Errorf("Error reading from %s - %s", path, err)
}
break
}
switch r {
case '[':
brackets.PushFront(syntaxError{line, column, pos})
case ']':
top := brackets.Front()
if top == nil {
basicError := fmt.Errorf(`Bad Markdown URL in %s:
extra closing bracket at line %d, column %d`, path, line, column)
out <- usefulError(path, pos, basicError)
} else {
brackets.Remove(top)
}
case '(':
parens.PushFront(syntaxError{line, column, pos})
case ')':
top := parens.Front()
if top == nil {
basicError := fmt.Errorf(`Bad Markdown URL in %s:
extra closing parenthesis at line %d, column %d`, path, line, column)
out <- usefulError(path, pos, basicError)
} else {
parens.Remove(top)
}
case '–':
enDashes[line]++
case '\n':
line++
column = 0
}
column++
}
// Check the results and accumulate any problems
checkHanging(brackets, "bracket", out, path)
checkHanging(parens, "parenthesis", out, path)
for line := range enDashes {
out <- fmt.Errorf("literal en dash at %s:%d - please use -- instead", path, line)
}
}
// the number of vars to test, their respective vals, and the number of bits needed to represent these vals; all these data are scattered in a hierarchical data structure (json)
// this function flattens these data into two lists for an easy, repetitive processing later
// the two returned lists should have the same length
// the length denotes the number of vars
// index i refers to var i (order established by the in order traversal of the json structure)
// list 1 stores for each var i its respective vals
// list 2 stores for each var i the number of bits needed to represent the number of vals
func Flatten(t Vars) (*list.List, *list.List) {
if t == nil {
return nil, nil
}
vals := list.New()
numBits := list.New()
for _, val := range t {
if val.Vals == nil || len(val.Vals) == 0 {
continue
}
switch val.Vals[0].(type) {
case map[string]interface{}:
sub_t := castInterfaceToVar(val.Vals)
v, b := Flatten(sub_t)
vals.PushBackList(v)
numBits.PushBackList(b)
default:
vals.PushBack(val.Vals)
v := uint(len(val.Vals))
numBits.PushBack(bitutil.BitsPerVal(v))
}
}
return vals, numBits
}
func (Svr *Solver) Solve_init(b *board.Board, Heur int) {
Svr.nbrRow = b.Size
fNode := new(Node)
fNode.StateBoard = Get_StateBoard(Svr.nbrRow)
fNode.relative = nil
fNode.nbrMove = 0
fNode.status = START
Svr.openList = list.New()
Svr.closeList = list.New()
if Heur == MANHATTAN {
Svr.Heuristic = manhattan_3.Get_manhattan_dis
} else if Heur == MANHATTAN_CONFLICT {
Svr.Heuristic = manhattan_3.Get_manhattan_dis_linear
} else if Heur == MISSPLACEDTILES {
Svr.Heuristic = missplacedtiles_3.Get_missplacedTiles
} else {
Svr.Heuristic = manhattan_3.Get_manhattan_dis
}
for i := 0; i < b.Size; i++ {
for j := 0; j < b.Size; j++ {
fNode.StateBoard[i][j] = b.Tiles[(i*b.Size)+j]
}
}
Svr.openList.PushFront(fNode)
}
func CreateTaskManager() {
free_workers_queue = make(chan *WorkerInfo, 100)
ch_quit = make(chan bool, 1)
workers_list = list.New()
clients_list = list.New()
task_queue.Init()
}
// Split a string based on spaces supporting escaping with backslash.
func splitEscapedString(s string) []string {
pieces := list.New()
for _, escapepiece := range strings.Split(s, `\ `) {
l := list.New()
for _, p := range strings.Split(escapepiece, " ") {
l.PushBack(p)
}
pieces.PushBack(l)
}
for pieces.Len() > 1 {
a := pieces.Front()
av := a.Value.(*list.List)
if av.Len() == 0 {
pieces.Remove(a)
} else {
aa := av.Front()
bv := a.Next().Value.(*list.List)
bv.Front().Value = aa.Value.(string) + " " + bv.Front().Value.(string)
av.Remove(aa)
}
}
innerlist := pieces.Front().Value.(*list.List)
res := make([]string, 0, innerlist.Len())
for e := innerlist.Front(); e != nil; e = e.Next() {
res = append(res, e.Value.(string))
}
return res
}
// capacity: nr elements in the cache.
// capacity < 0 means always in memory;
// capacity = 0 means no cache.
//
// maxNrDirty: < 0 means no flush.
//
// flushPeriod:
// flushPeriod > 1 second means periodically flush;
// flushPeriod = 0 second means no periodically flush;
// undefined in range (0, 1).
func New(capacity int, maxNrDirty int, flushPeriod time.Duration, flusher Flusher) *Cache {
cache := new(Cache)
cache.flushPeriod = flushPeriod
cache.capacity = capacity
if cache.capacity < 0 {
cache.data = make(map[string]*list.Element, 1024)
} else {
cache.data = make(map[string]*list.Element, cache.capacity)
}
cache.list = list.New()
cache.dirtyList = list.New()
cache.flusher = flusher
cache.maxNrDirty = maxNrDirty
if flushPeriod.Seconds() > 0.9 {
go func() {
for {
time.Sleep(flushPeriod)
cache.Flush()
}
}()
}
return cache
}
func NewConnPool(minPoolSize, corepoolSize,
maxPoolSize int, idletime time.Duration,
dialFunc func(connectionId int32) (error, IConn)) (error, *ConnPool) {
pool := &ConnPool{
maxPoolSize: maxPoolSize,
corepoolSize: corepoolSize,
minPoolSize: minPoolSize,
idletime: idletime,
dialFunc: dialFunc,
running: true,
connectionId: 1,
idlePool: list.New(),
workPool: list.New()}
err := pool.enhancedPool(pool.corepoolSize)
if nil != err {
return err, nil
}
//启动链接过期
go pool.evict()
return nil, pool
}
func pre2stuf(exps []string) (exps2 []string) {
list1 := list.New()
list2 := list.New()
for _, exp := range exps {
if isOperate(exp) {
if op, ok := isPop(list1, exp); ok {
for _, s := range op {
list2.PushBack(s)
}
}
if exp == ")" {
continue
}
list1.PushBack(exp)
} else {
list2.PushBack(exp)
}
}
for cur := list1.Back(); cur != nil; cur = cur.Prev() {
// fmt.Print(cur.Value)
list2.PushBack(cur.Value)
}
for cur := list2.Front(); cur != nil; cur = cur.Next() {
if curValue, ok := cur.Value.(string); ok {
exps2 = append(exps2, curValue)
}
}
return
}
func NewLRUCacher(store CacheStore, max int) *LRUCacher {
cacher := &LRUCacher{store: store, idList: list.New(),
sqlList: list.New(), Max: max}
cacher.sqlIndex = make(map[string]map[interface{}]*list.Element)
cacher.idIndex = make(map[string]map[interface{}]*list.Element)
return cacher
}
//获取所有任务的任务列表
func FetchTaskList() (int, *list.List) {
var stmtIns *sql.Stmt
var err error
stmtIns, err = db.Prepare("select task_id, create_time from rdb_parse_task")
if err != nil {
logs.Log("fetch task list error in dbutil db.Prepare : " + err.Error())
return -1, list.New()
}
defer stmtIns.Close()
rows, errs := stmtIns.Query()
if errs != nil {
logs.Log("fetch task list error in dbutil stmtIns.Query : " + errs.Error())
return -2, list.New()
}
taskList := list.New()
var taskId string
var createTime string
for rows.Next() {
var task Task
rows.Scan(&taskId, &createTime)
task.TaskId = taskId
task.CreateTime = createTime
taskList.PushBack(task)
}
return 1, taskList
}
func TestCreateLevelList(t *testing.T) {
array := []int{1, 2, 3, 3, 4, 5, 6}
root := CreateMinTree(array)
lists := CreateLevelList(root)
l1, l2, l3 := list.New(), list.New(), list.New()
l1.PushBack(3)
l2.PushBack(2)
l2.PushBack(5)
l3.PushBack(1)
l3.PushBack(3)
l3.PushBack(4)
l3.PushBack(6)
expectedLists := []*list.List{l1, l2, l3}
for i := 0; i < len(lists); i++ {
actual, expected := lists[i].Front(), expectedLists[i].Front()
for actual != nil {
if actual.Value.(*TreeNode).value != expected.Value {
t.Errorf("got %v, want %v", actual.Value.(*TreeNode).value, expected.Value)
}
actual, expected = actual.Next(), expected.Next()
}
}
}
/*
Insert user default
insert a user with default data
*/
func (Lst_users *All_users) AddNewDefaultUser(Db *sql.DB, req *protocol.Request) *list.Element {
var err error
t := bytes.NewBufferString("1")
bpass := t.Bytes()
tmpUser := new(User)
tmpUser.Log = time.Now()
tmpUser.Followed = list.New()
tmpUser.Possessed = list.New()
tmpUser.HistoricReq = list.New()
tmpUser.Coord.Lon = req.Coord.Lon
tmpUser.Coord.Lat = req.Coord.Lat
tmpUser.Stats = new(StatsUser)
tmpUser.Stats.CreationDate = time.Now()
tmpUser.Stats.NbrBallCreate = 0
tmpUser.Stats.NbrCatch = 0
tmpUser.Stats.NbrSend = 0
tmpUser.Stats.NbrFollow = 0
tmpUser.Stats.NbrMessage = 0
err = Db.QueryRow("SELECT setsdefaultuserdata($1, $2, $3, $4, $5);", tmpUser.Coord.Lat, tmpUser.Coord.Lon, tmpUser.Log, tmpUser.Stats.CreationDate, bpass).Scan(&tmpUser.Id)
if err != nil {
Lst_users.Logger.Println(err)
return nil
}
Lst_users.Ulist.PushBack(tmpUser)
return Lst_users.Ulist.Back()
}
func ReadSentences() (sentences chan *list.List, err error) {
sentences = make(chan *list.List)
go func() {
defer close(sentences)
reader := bufio.NewReader(os.Stdin)
sentence := list.New()
for {
line, err := reader.ReadString('\n')
if err != nil {
if err != io.EOF {
fmt.Println("Error reading tokens from stdin:", err)
}
sentences <- sentence
return
}
token := strings.Trim(line, "\n")
if token != "" {
sentence.PushBack(token)
}
if len(token) == 1 && strings.IndexAny(token, ".?!:") == 0 {
sentences <- sentence
sentence = list.New()
}
}
}()
return
}